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FHTET Biological Control Program. FHTET Biological Control Program What we can do for you:. Development and implementation of biological control to manage invasive species Sponsored training and workshops/meetings on biological control Coordinated and focused funding for biological control
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FHTET Biological Control Program What we can do for you: • Development and implementation of biological control to manage invasive species • Sponsored training and workshops/meetings on biological control • Coordinated and focused funding for biological control • Up-to-date information on biological control projects via publications • Recommendations on the restoration of native plant species • For more information contact: Richard Reardon (304) 285-1566 rreardon@fs.fed.us
What is biological control? • The deliberate use of living organisms to limit the abundance of a target organism • Natural enemies reduce the population of hosts; in turn, host abundance influences the population levels of natural enemies • “Classical biological control” – reunites the target organism with natural enemies from its native range
Amber-marked birch leafminer (Profenusa thomsoni)Hymenoptera: Tenthredinidae This sawfly is a serious pest of birches (Betula spp.) in western Canada and Alaska A parasitic wasp, Lathrolestes thomsoni, reduces populations of the sawfly in North America L. thompsoniintroduced and established at all release sites in Alaska Two native parasitoids, L. soperiand Aptesissegnisalso parasitize Amber-marked birch leafminer Effectiveness and spread of three species of parasitoids being monitored through 2015 at all release sites
Beech scale(Cryptococcus fagisuga)Hemiptera: Eriococcidae Beech bark disease has degraded 80% or more of American beech over much of its range Beech scale (Crytococcusfagisuga) attacks the bark of American beech (Fagus grandifolia) introducing a fungus complex consisting of Nectria coccinea var faginata and sometimes Nectria galligena. The scale insect damages the bark, enabling Nectria infections followed by colonization by decay fungi. For beech scale, no parasitoids have even been recorded in North America or Europe Surveys for parasitoids being conducted in both the Caucasus Mountains proper – Georgia and Azerbaijan and in the lesser Caucasus Mountains to the south – southern Georgia, Armenia, parts of Turkey and northern Iran
Elongate hemlock scale(Fiorinia externa)Hemiptera: Diaspididae Elongate hemlock scale (EHS) is an invasive pest of hemlock, Tsuga spp. and other conifers Encarsiacitrinais the principal parasitoid of elongate hemlock scale in eastern North America Survey in Japan for parasitoids of elongate hemlock scale Unique species of parasitoids attacking elongate hemlock scale in Japan that are not found in the eastern United States and possible future biological control candidates for investigation
Emerald ash borer(Agrilus planipennis)Coleoptera: Buprestidae Since 2002 this invasive wood-boring beetle from northeastern Asia has killed millions of ash (Fraxinus) trees in the U. S. and has been detected in sixteen states Exploration for emerald ash borer natural enemies in China Three species of parasitoids from China have been released and recovered at selected sites in MI, OH, IL, WV, MD, VA, IN and KY: Spathius agrili (larval parasitoid); Tetrastichusplanipennisi(larval parasitoid) Oobius agrili (egg parasitoid) Effectiveness and spread of the three species of parasitoids being monitored at all release sites
Goldspotted oak borer(Agrilus auroguttatus) Goldspotted oak borer (GSOB) attacks coast live oak (Quercus agrifolia), canyon live oak (Q. chrysolepis), and California black oak (Q. kelloggii). responsible for oak mortality (21,500 trees) in CA Initial collections suggest that GSOB from Mexico may be a separate species and a future potential invader of CA initiated surveys for natural enemies in AZ and Chiapas and Oaxaca, Mexico surveys to identify sources and potential invasion routes for GSOB in California Surveys in AZ have yielded two different parasitoids: Calosota elongata and Atanycolus simplex, neither of which is found in CA Surveys for parasitoids continue in Mexico
Hemlock woolly adelgid(Adelges tsugae)Homoptera: adelgidae Hemlock dominated forests amount to approximately 2.3 million acres Hemlock woolly adelgid (HWA) is a serious pest of eastern hemlock (Tsuga canadensis) and Carolina hemlock (Tsuga caroliniana) Predator beetles, Sasajiscymnus tsugae, Scymnussinuanodulus, S. ningshanensis and Laricobiusnigrinus(Seattle biotype and Inland biotype) released in numerous states L. nigrinus(Seattle and Inland biotypes) established at numerous sites in several states Other predators under evaluation are: Leucopisargenticolis, Scymnus coniferarum, Laricobiusosakensis The fungus Lecanicilliummuscarium, recovered from HWA populations in the eastern U. S. and being evaluated for efficacy in ground and aerial application trials. In 2007, the HWA Predator Release and Recovery Database (PDB) was initiated. http://hwa.ento.vt.edu/hwa/hwa.cgi Eight labs mass rearing hemlock woolly adelgid predators
Woodwasp(Sirex noctilio)Hymenoptera: Siricidae Sirex woodwasp is one of the top 10 most serious insect pests in the world A native to northern Africa, Asia and Europe, it first appeared in the U. S. in 2004 Females inject a toxic mucus and a fungus during egg laying in the bark of pine trees. The mucus kills tree cells, the fungus feeds on the dead tree cells and the larvae feed on the fungus S. noctilio has the potential to cause considerable damage to both natural pine forests and pine plantations worldwide Exploration for natural enemies indicated that the most effective species was a nematode, Beddingia siricidicola which sterilized female woodwasps Three native hymenopteran parasitoid species attack S. noctilio with Ibalia leucospoides the most abundant Ongoing study at Cornell University (Hajek); University of GA (Gandhi); Natural Resources Canada (Allison); University of AR (Stephen); University of Pretoria (Slippers); North Carolina State University (Schal) to monitor native siricids and their associated natural enemies
Chinese privet(Ligustrum sinense) Chinese privet is a shade-tolerant semi-evergreen that forms dense thickets Seeds easily dispersed by birds and other animals Spreads via root sprouts Surveys for natural enemies continues in China One natural enemy, a weevil, looks promising and is in quarantine at the University of Georgia Conducting host range tests petition prepareded to Technical Advisory Group (TAG) as host range testing completed for lace bug (Leptoyphahospita)
Garlic mustard(Alliaria petiolata) Garlic mustard is an invasive biennial plant that rapidly outcompetes native plants for resources and displaces natural food sources for animals that rely on them Since 2000 it has spread to more than 34 states in the US and 4 Canadian provinces Four species of weevils, Ceutorhynchus constrictus, C. alliariae, C. scrobicollis, and C. roberti are being evaluated as biological controls. C. scrobicollis, a root crown feeder, is the most promising Petition submitted to TAG to release the root crown mining weevil, C. scrobicollis, additional host range testing recommended.
Japanese knotweed(Fallopia japonica) Japanese knotweed is an invasive plant of riparian areas and roadsides where it outcompetes native plants by forming dense thickets and an extensive root system Three insects and one pathogen were evaluated as potential biological control agents. Aphalara itadori , a sap-sucking psyliid Ostrinia ovalipennis, a leaf and stem feeding moth Gallerucida bifasciata, a leaf feeding chrysomelid beetle Mycosphaerella sp., a leaf spot pathogen Petition submitted to TAG and they recommended release A. itadori in the US.
Japanese stiltgrass (Microstegium vimineum) Japanese stiltgrass is an annual grass that thrives in low-light conditions, displacing native plants. Plants spread by rooting at the nodes. Seeds are able to remain dormant for five years or more Initial risk assessment and potential for biological control for Japanese stiltgrass being prepared by Hough-Goldstein (University of Delaware) and Ding (Chinese Academy of Sciences)
Kudzu(Pueraria montana var. lobata) Kudzu is an invasive perennial vine introduced into the U. S. in 1876 for erosion control. Its vines, which may reach lengths of 100 feet grow over, often at 1 foot per day, smother and kill all other vegetation including trees Natural enemy survey in China which to date yielded more than 100 insects that feed on Kudzu Host range testing completed for several species but all fed on soybeans; therefore, not considered for release, additional surveys being conducted in China A host specific sawfly recovered, but in extremely low numbers and difficult to rear in quarantine.
Mile-a-minute(Persicaria perfoliata ) Mile-a-minute is a rapidly growing vine that invades open, disturbed areas, such as fields, forest edges, roadsides and stream banks. It covers existing vegetation blocking sunlight and inhibits growth and regeneration of new plants. Heavy production of long-lived seeds make eradication difficult. Out of more than 100 natural enemies collected in China, a stem-boring weevil, Rhinoncomimus latipes,was determined to be the most promising biological control. The weevil has been mass-reared and released in 10 eastern states. The weevil has been recovered at all release sites and is spreading rapidly New Jersey Department of Agriculture rearing the weevil for distribution to cooperators
Tree-of-heaven(Ailanthus altissima) Tree of heaven is a fast growing tree with numerous wind dispersed lightweight seeds. It outcompetes native plants by forming dense thickets and also produces chemicals that inhibit the growth of other plants. A weevil, Eucryptorrhynchus brandti, from China reared in quarantine and host range studies conducted Petition to release weevil submitted to TAG and additional host range testing recommended An indigenous fungus, Verticilliumnonalfalafaerecovered from Tree-of-heaven and causing mortality at sites in PA, VA, and OH Host range testing conducted for V. nonalfalafae Molecular characterization of V. nonalfalafae